Tag Archives: Gas

Here’s a paper published in the prestigious peer-reviewed science journal Nature, entitled “The oxidation state of Hadean magmas and implications for early Earth’s atmosphere”. This paper is significant because it undermines naturalistic scenarios for the origin of life.

A recent Nature publication reports a new technique for measuring the oxygen levels in Earth’s atmosphere some 4.4 billion years ago. The authors found that by studying cerium oxidation states in zircon, a compound formed from volcanic magma, they could ascertain the oxidation levels in the early earth. Their findings suggest that the early Earth’s oxygen levels were very close to current levels.

[…]Miller and Urey conducted experiments to show that under certain atmospheric conditions and with the right kind of electrical charge, several amino acids could form from inorganic compounds such as methane, ammonia, and water. Several experiments have been done using various inorganic starting materials, all yielding a few amino acids; however, one key aspect of all of these experiments was the lack of oxygen.

If the atmosphere has oxygen (or other oxidants) in it, then it is an oxidizing atmosphere. If the atmosphere lacks oxygen, then it is either inert or a reducing atmosphere. Think of a metal that has been left outside, maybe a piece of iron. That metal will eventually rust. Rusting is the result of the metal being oxidized. With organic reactions, such as the ones that produce amino acids, it is very important that no oxygen be present, or it will quench the reaction. Scientists, therefore, concluded that the early Earth must have been a reducing environment when life first formed (or the building blocks of life first formed) because that was the best environment for producing amino acids. The atmosphere eventually accumulated oxygen, but life did not form in an oxidative environment.

The problem with this hypothesis is that it is based on the assumption that organic life must have formed from inorganic materials. That is why the early Earth must have been a reducing atmosphere. Research has been accumulating for more than thirty years, however, suggesting that the early Earth likely did have oxygen present.

[…]Their findings not only showed that oxygen was present in the early Earth atmosphere, something that has been shown in other studies, but that oxygen was present as early as 4.4 billion years ago. This takes the window of time available for life to have begun, by an origin-of-life scenario like the RNA-first world, and reduces it to an incredibly short amount of time. Several factors need to coincide in order for nucleotides or amino acids to form from purely naturalistic circumstances (chance and chemistry). The specific conditions required already made purely naturalist origin-of-life scenarios highly unlikely. Drastically reducing the amount of time available, adding that to the other conditions needing to be fulfilled, makes the RNA world hypothesis or a Miller-Urey-like synthesis of amino acids simply impossible.

So here’s where we stand. If you are a materialist, then you need a reducing environment on the early Earth in order to get organic building blocks (amino acids) from inorganic materials. However, the production of these organic building blocks (amino acids) requires that the early Earth atmosphere be oxygen-free. And the problem with this new research, which confirms previous research, is that the early Earth contained huge amounts of oxygen – the same amount of oxygen as we have today. This is lethal to naturalistic scenarios for creating the building blocks of life on the Earth’s surface.

The “origin of life” (OOL) is best described as the chemical and physical processes that brought into existence the first self-replicating molecule. It differs from the “evolution of life” because Darwinian evolution employs mutation and natural selection to change organisms, which requires reproduction. Since there was no reproduction before the first life, no “mutation – selection” mechanism was operating to build complexity. Hence, OOL theories cannot rely upon natural selection to increase complexity and must create the first life using only the laws of chemistry and physics.

There are so many problems with purely natural explanations for the chemical origin of life on earth that many scientists have already abandoned all hopes that life had a natural origin on earth. Skeptical scientists include Francis Crick (solved the 3-dimensional structure of DNA) and Fred Hoyle (famous British cosmologist and mathematician), who, in an attempt to retain their atheistic worldviews, then propose outrageously untestable cosmological models or easily falsifiable extra-terrestrial-origin-of-life / panspermia scenarios which still do not account for the natural origin of life. So drastic is the evidence that Scientific American editor John Horgan wrote, “[i]f I were a creationist, I would cease attacking the theory of evolution … and focus instead on the origin of life. This is by far the weakest strut of the chassis of modern biology.”3

Most people who are talking about intelligent design at the origin of life talk about the information problem – how do you get the amino acids to form proteins and how do you get nucleotide bases to code for amino acids? But the starting point for solving the sequencing problem is the construction of the amino acids – there has to be a plausible naturalistic scenario to form them.

Here’s the one I want to highlight, because it’s the one that concerns me most, at least until we get a Republican President:

7) Russia will be in trouble and will be trouble.

One of the most enjoyable consequences of the oil price collapse is seeing how it takes the wind out of the sails of a whole collection of evil regimes.

Oil is the dictators’ best friend. It is a steady source of revenue that can be maintained and controlled by the government, often with the help of foreign subcontractors, even when government controls, corruption, and cronyism have crushed the rest of the economy. So a collapse in the price of oil is a disaster for the bad guys.

Nobody is getting hit worse than the regime in Venezuela, which is now on the verge of defaulting on its debt. Since Venezuela has been a big economic sponsor of the regime in Cuba, you can see how a Venezuelan collapse will affect Cuba—and may well be the reason the Castros are seeking a lifeline from President Obama.

But the big geopolitical implications will come from the impact of the oil collapse on Russia. For years, the conventional wisdom has been that Europe is dependent on buying Russian oil and gas; now we’re about to see to what extent Russia is dependent on selling its oil and gas to Europe.

The downside is, as Megan McArdle puts it, “Russia’s Problems Are Everyone’s Problems.” “[T]he world is about to experience a major financial crisis in a country that seems to deal with its internal troubles by slicing off bits of neighboring countries.” Like its leader, Vladimir Putin, Russia is a country with a Napoleon complex: the smaller and weaker it gets, the more belligerent it becomes, as a form of overcompensation.

But shirtless macho posturing only gets you so far when you don’t have the cash to back it up. There is some speculation that a financial crisis could lead to defections in Russia’s “near abroad,” its ring of former Soviet republics and fellow kleptocracies. Then there’s the fact that Putin’s aggression has permanently alienated Ukraine, which is now taking steps toward joining NATO. Meanwhile, the Baltic states are increasing their defense budgets. One hopes that other European nations will follow, at a time when Russia is not in a position to match their spending.

I think Russia is weak enough that Putin would slink away with his tail between his legs, if we had an American leader with the guts to call his bluff. But that’s not going to happen, so in 2015, look for a volatile mix of greater belligerence and diminished capability.

When I hear about the collapse of the Russian currency, it makes me worry that we could a lot of scary scenarios as Putin tries to hold his state together.

Here’s a paper published in the prestigious peer-reviewed science journal Nature, entitled “The oxidation state of Hadean magmas and implications for early Earth’s atmosphere”. This paper is significant because it undermines naturalistic scenarios for the origin of life.

A recent Nature publication reports a new technique for measuring the oxygen levels in Earth’s atmosphere some 4.4 billion years ago. The authors found that by studying cerium oxidation states in zircon, a compound formed from volcanic magma, they could ascertain the oxidation levels in the early earth. Their findings suggest that the early Earth’s oxygen levels were very close to current levels.

[…]Miller and Urey conducted experiments to show that under certain atmospheric conditions and with the right kind of electrical charge, several amino acids could form from inorganic compounds such as methane, ammonia, and water. Several experiments have been done using various inorganic starting materials, all yielding a few amino acids; however, one key aspect of all of these experiments was the lack of oxygen.

If the atmosphere has oxygen (or other oxidants) in it, then it is an oxidizing atmosphere. If the atmosphere lacks oxygen, then it is either inert or a reducing atmosphere. Think of a metal that has been left outside, maybe a piece of iron. That metal will eventually rust. Rusting is the result of the metal being oxidized. With organic reactions, such as the ones that produce amino acids, it is very important that no oxygen be present, or it will quench the reaction. Scientists, therefore, concluded that the early Earth must have been a reducing environment when life first formed (or the building blocks of life first formed) because that was the best environment for producing amino acids. The atmosphere eventually accumulated oxygen, but life did not form in an oxidative environment.

The problem with this hypothesis is that it is based on the assumption that organic life must have formed from inorganic materials. That is why the early Earth must have been a reducing atmosphere. Research has been accumulating for more than thirty years, however, suggesting that the early Earth likely did have oxygen present.

[…]Their findings not only showed that oxygen was present in the early Earth atmosphere, something that has been shown in other studies, but that oxygen was present as early as 4.4 billion years ago. This takes the window of time available for life to have begun, by an origin-of-life scenario like the RNA-first world, and reduces it to an incredibly short amount of time. Several factors need to coincide in order for nucleotides or amino acids to form from purely naturalistic circumstances (chance and chemistry). The specific conditions required already made purely naturalist origin-of-life scenarios highly unlikely. Drastically reducing the amount of time available, adding that to the other conditions needing to be fulfilled, makes the RNA world hypothesis or a Miller-Urey-like synthesis of amino acids simply impossible.

So here’s where we stand. If you are a materialist, then you need a reducing environment on the early Earth in order to get organic building blocks (amino acids) from inorganic materials. However, the production of these organic building blocks (amino acids) requires that the early Earth atmosphere be oxygen-free. And the problem with this new research, which confirms previous research, is that the early Earth contained huge amounts of oxygen – the same amount of oxygen as we have today. This is lethal to naturalistic scenarios for creating the building blocks of life on the Earth’s surface.

The “origin of life” (OOL) is best described as the chemical and physical processes that brought into existence the first self-replicating molecule. It differs from the “evolution of life” because Darwinian evolution employs mutation and natural selection to change organisms, which requires reproduction. Since there was no reproduction before the first life, no “mutation – selection” mechanism was operating to build complexity. Hence, OOL theories cannot rely upon natural selection to increase complexity and must create the first life using only the laws of chemistry and physics.

There are so many problems with purely natural explanations for the chemical origin of life on earth that many scientists have already abandoned all hopes that life had a natural origin on earth. Skeptical scientists include Francis Crick (solved the 3-dimensional structure of DNA) and Fred Hoyle (famous British cosmologist and mathematician), who, in an attempt to retain their atheistic worldviews, then propose outrageously untestable cosmological models or easily falsifiable extra-terrestrial-origin-of-life / panspermia scenarios which still do not account for the natural origin of life. So drastic is the evidence that Scientific American editor John Horgan wrote, “[i]f I were a creationist, I would cease attacking the theory of evolution … and focus instead on the origin of life. This is by far the weakest strut of the chassis of modern biology.”3

Most people who are talking about intelligent design at the origin of life talk about the information problem – how do you get the amino acids to form proteins and how do you get nucleotide bases to code for amino acids? But the starting point for solving the sequencing problem is the construction of the amino acids – there has to be a plausible naturalistic scenario to form them.

From Investors Business Daily. Before you read the article, you should know that “fracking” is short for hydraulic fracturing. This is a technique for extracting shale oil by creating fractures in rocks.

Excerpt:

Whether naturally occurring or not, environmentalists claim that fracking would release huge amounts of what they consider the most potent heat-trapping greenhouse gas, far outweighing the value of producing huge quantities of clean-burning natural gas.

Now comes a study, conducted by scientists at the University of Texas and published in the Proceedings of the National Academy of Sciences — and co-financed by one of the highest-profile environmentalists in the country — that shows much smaller amounts of methane emissions associated with fracking, far less than environmentalists and the Environmental Protection Agency have contended.

[…]The study, billed as the first to measure the actual emissions of methane from natural gas wells, finds these emissions were, in some cases, only about 2% of the most recent national estimate by the EPA in 2011. An upcoming EPA rule, effective January 2015, requires all methane to be captured when liquids are removed after drilling.

Seen by many as an attempt to stop fracking, which has boosted the economy through its ability to tap previously inaccessible oil and gas riches, the rule might be redundant. Two-thirds of the wells studied already were capturing or controlling the methane to reduce emissions.

“For those wells with methane capture or control, 99% of the potential emissions were captured or controlled,” the study notes.

This proves once again there is no problem technology can’t solve and that when decisions are made based on technology, rather than ideology, good things happen.

An interesting aspect of the study is that it was funded in part by Tom Steyer, a billionaire environmentalist who has become highly active in national politics in the past year, backing environmentalist Democrats such as Massachusetts Sen. Ed Markey and Virginia gubernatorial candidate Terry McAuliffe.

Steyer’s support for the University of Texas came by way of the Environmental Defense Fund, which helped finance the study. He and his wife Kat Taylor are listed among individuals who provided “major funding for the EDF’s 30-month methane research series, including their portion of the University of Texas study.”

[…]Thanks in large part to fracking, energy-related carbon dioxide emissions in 2012 were the lowest in the U.S. since 1994, at 5.3 billion metric tons. With the exception of 2010, emissions have declined every year since 2007.

Back in May 2013, Associated Press reported that the EPA had already lowered their estimates before this study completed.

Excerpt:

The new EPA data is “kind of an earthquake” in the debate over drilling, said Michael Shellenberger, the president of the Breakthrough Institute, an environmental group based in Oakland, Calif. “This is great news for anybody concerned about the climate and strong proof that existing technologies can be deployed to reduce methane leaks.”

The scope of the EPA’s revision was vast. In a mid-April report on greenhouse emissions, the agency now says that tighter pollution controls instituted by the industry resulted in an average annual decrease of 41.6 million metric tons of methane emissions from 1990 through 2010, or more than 850 million metric tons overall. That’s about a 20 percent reduction from previous estimates. The agency converts the methane emissions into their equivalent in carbon dioxide, following standard scientific practice.

So there’s no harm to the environment, but about the economics benefits of fracking? Well, when states have embraced fracking, their economies have greatly benefited.

Here’s what happened when North Dakota lowered its regulatory barriers to energy development.

This:

North Dakota had the highest payroll-to-population rate (P2P) and the lowest underemployment rate in 2012, thanks mostly to the state’s booming oil & gas industry.

According to Gallup’s “State of the States” analysis released today, North Dakota ranked number one among the lower 48 states, with a payroll to population rate of 53.6 percent.

Gallup said it measured each state’s P2P rate by the percentage of the adult population aged 18 and older employed full-time by an employer for at least 30 hours per week.

The analysis noted that the numbers are not seasonably adjusted and variations across states reflect a number of factors, including the overall employment situation for each state as well as the demographic composition of that state’s population. P2P rates in Alaska, Hawaii, and the District of Columbia were not considered in the analysis.

Factoring in the most recent unemployment data is key to the Gallup analysis. North Dakota reported just a 3.2 percent unemployment rate, well below the national average unemployment rate of 7.9 percent, according to the U.S. Bureau of Labor Statistics.

The number one ranking should not come as much of a surprise given the Peace Garden state’s rise in oil and gas production and the subsequent rise in jobs over the past few years.

According to North Dakota Jobs Service data from 2011, the most recent available, the number of oil and gas jobs in North Dakota has risen 57.5 percent since 2010 – going from 10,660 jobs in 2010 to 16,786 jobs in 2011, with the oil and gas payroll nearly doubling — going from $852 million in 2010 up to $1.5 billion in 2011.

North Dakota now produces more oil than any other state, including Alaska, which ranked number one in 2011, according to the U.S. Energy Information Administration.

In New York, Chesapeake Energy just decided to pull up stakes and leave the state.

Excerpt:

After more than five years of a fracking moratorium, a leading energy company walks away from its leases, leaving New York, its natural gas riches — and the jobs and wealth they could generate — unrealized.

In 2000, people from Chesapeake Energy began arriving in Broome County, New York, a few miles north of the Pennsylvania border. Broome had seen better economic days but was lucky to be sitting right atop the natural gas-rich Marcellus Shale formation, which stretches through much of the Northeast.

[…]Interestingly, New York’s very own Department of Environmental Conservation website on Marcellus drilling says, “No known instances of groundwater contamination have occurred from previous horizontal drilling or hydraulic fracturing projects in New York.”

A recent Department of Energy study has concluded that fracking chemicals do not taint drinking water.

After a year of monitoring wells in western Pennsylvania, researchers found these fluids stayed thousands of feet below the areas that supply drinking water.

A 2010 Pennsylvania Department of Environmental Protection report concluded that “no groundwater pollution or disruption of underground sources of drinking water have been attributed to hydraulic fracturing of deep gas formations.”

But Pennsylvania allows fracking, and they are seeing the same economic boom as North Dakota:

A recent study by the Manhattan Institute highlighted the economic impact of fracking in New York’s neighbor to the south, Pennsylvania, which has had 5,000 wells fracked since 2002.

The data are compelling, as counties with more than 200 wells, drilled between 2007 and 2011, saw a 19% increase in per-capita incomes, versus just 8% income growth for those with no wells fracked.

Further, the number of county jobs grew by 7% in those with more than 200 wells fracked, against a 3% contraction in counties with no wells drilled.

According to the Manhattan Institute’s Diana Furchtgott-Roth, “Income of residents in the 28 New York counties above the Marcellus Shale has the potential to expand by 15% or more over the next four years if the state’s moratorium is lifted.”

In Pennsylvania, according to the report, each well in the Marcellus Shale formation creates $5.5 million in direct economic benefits and 62 jobs, and the wells endanger no one. Pennsylvania’s Department of Labor and Industry estimates that fracking in its part of the Marcellus created 72,000 jobs from the fourth quarter of 2009 to the first quarter of 2011, as New York’s job- and growth-killing moratorium got underway.

Now tell me again why progressives are supposedly smarter than conservatives.

Although I am not a global warming alarmist, I am concerned with conservation. So, all things being equal, I think it’s a good idea not to pollute the environment unnecessarily. Now, you might think that environmentalists agree with me on that.

Let’s take a look at this article by Bret Stephens from the Wall Street Journal where he writes about how a train that was transporting shale oil was derailed and then exploded. (H/T Dennis Prager)

Excerpt:

The derailed 72-car train belonged to a subsidiary of Illinois-based multinational Rail World, whose self-declared aim is to “promote rail industry privatization.” The train was carrying North Dakota shale oil (likely extracted by fracking) to the massive Irving Oil refinery in the port city of Saint John, to be shipped to the global market. At least five people were killed in the blast (a number that’s likely to rise) and 1,000 people were forced to evacuate. Quebec’s environment minister reports that some 100,000 liters (26,000 gallons) of crude have spilled into the Chaudière River, meaning it could reach Quebec City and the St. Lawrence River before too long.

Now the question is, why is it that trains are used instead of pipelines, when pipelines are safer than trains?

Let’s see why:

The reason oil is moved on trains from places like North Dakota and Alberta is because there aren’t enough pipelines to carry it. The provincial governments of Alberta and New Brunswick are talking about building a pipeline to cover the 3,000-odd mile distance. But last month President Obama put the future of the Keystone XL pipeline again in doubt, telling a Georgetown University audience “our national interest will be served only if this project does not significantly exacerbate the problem of carbon pollution.”

[…]Like water, business has a way of tracing a course of least resistance. Pipelines are a hyper-regulated industry but rail transport isn’t, so that’s how we now move oil. As the Wall Street Journal’s Tom Fowler reported in March, in 2008 the U.S. rail system moved 9,500 carloads of oil. In 2012, the figure surged to 233,811. During the same period, the total number of spills went from eight to 69. In March, a derailed train spilled 714 barrels of oil in western Minnesota.

Predictable, you would think. And ameliorable: Pipelines account for about half as much spillage as railways on a gallon-per-mile basis. Pipelines also tend not to go straight through exposed population centers like Lac-Mégantic. Nobody suggests that pipelines are perfectly reliable or safe, but what is? To think is to weigh alternatives. The habit of too many environmentalists is to evade them.

Railways suffer spills 2.7 times more often than pipelines, according to the Washington-based Association of American Railroads. If that seems self-serving, the State Department, citing a 2012 study from the free-market Manhattan Institute, said trains spill 33 times more oil than pipelines.

[…]”The evidence is so overwhelming that railroads are far less safe than pipelines,” says Charles Ebinger, director of the Brookings Institution’s energy security initiative.

Brookings is a left-leaning think tank, and they agree: pipelines are safer than trains.

It does make sense, I think, for Christians and conservatives to ask ourselves sensible questions about the environment. How do we make air clean enough? How do we make water clean enough? How do we avoid impacting nature unnecessarily? But I think this story about the train should help us realize that fundamentalist environmentalists are not the best people to be making these sorts of policy decisions. These decisions should be made by rational thinkers, who can consider all sides of an issue and think critically about the needs of everyone concerned. This is not a problem for secular leftist idealists who are more motivated by blind faith than by facts.